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Ecology, management and conservation in natural and modified habitats
RESEARCH ARTICLE

Rapid eradication assessment (REA): a tool for pest absence confirmation

Juliana H. K. Kim A , Peter Corson B , Nick Mulgan C and James C. Russell https://orcid.org/0000-0002-5901-6416 A C D
+ Author Affiliations
- Author Affiliations

A University of Auckland, Private Bag 92019, Auckland 1142, New Zealand.

B Department of Conservation, 99 Sala Street, Whakarewarewa, Rotorua 3010, New Zealand.

C Zero Invasive Predators, c/o Zealandia Sanctuary, PO Box 9267, Wellington 6141, New Zealand.

D Corresponding author. Email: j.russell@auckland.ac.nz

Wildlife Research 47(2) 128-136 https://doi.org/10.1071/WR18154
Submitted: 11 October 2018  Accepted: 8 September 2019   Published: 14 February 2020

Abstract

Context: Eradication of invasive species is necessary to protect and assist the recovery of native species and ecosystems. Knowing when to declare an eradication has been successful after ongoing non-detections is a challenge.

Aims: The rapid eradication assessment (REA) model is a powerful simulation framework to determine, given model parameters and a fixed level of monitoring effort, the level of confidence in declaring the success of pest eradication. The aim of the present study was to extend the current functionality of the REA model for broader applicability.

Methods: The REA model was advanced so that it was able to account for (1) usage of multiple static device types with different probabilities of detection, (2) incursion detection at a known location and (3) usage of mobile detection devices, which are increasingly being used in conservation.

Key results: An invasive rat incursion response on Great Mercury Island in New Zealand is used as a comprehensive example to demonstrate the distribution of estimated probability of pest absence among the cases using the current REA model and the extensions presented here.

Conclusions: Although Great Mercury Island already had a sparse but extensive island-wide network of static biosecurity surveillance devices, and deployed additional static devices around the area of incursion, the greatest improvement in the estimated probability of pest absence following a rat incursion was from additionally using a trained rodent-detection dog.

Implications: The added functionality in the REA model and demonstration of its use on a real-world scenario will allow more realistic application by wildlife managers.

Additional keywords: conservation, invasion, islands, management strategies, modelling, pest management, population modelling, statistics, vertebrates, wildlife management.


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